Graduate Certificate in EV Powertrain Systems
-- viewing nowElectric Vehicle (EV) Powertrain Systems is a specialized program designed for professionals and enthusiasts looking to upgrade their knowledge in the rapidly growing EV industry. Electric Vehicle technology is transforming the transportation sector, and understanding its powertrain systems is crucial for anyone involved in the field.
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About this course
This Graduate Certificate program covers the fundamentals of EV powertrain systems, including battery management, motor control, and thermal management.
Learn from industry experts and gain hands-on experience with EV powertrain systems, including design, development, and testing. Develop a deeper understanding of EV powertrain systems and their applications in various industries, including transportation, energy storage, and renewable energy. Take the first step towards a career in EV powertrain systems or enhance your existing knowledge and skills. Explore the Graduate Certificate in EV Powertrain Systems today and discover a world of opportunities in the EV industry.
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Course details
• Electric Motor Design and Control
This unit covers the fundamental principles of electric motor design, including the types of electric motors, motor control techniques, and power electronics. Students will learn about the design and development of electric motors for EV powertrains, including the use of advanced materials and manufacturing techniques. • Power Electronics and Converters
This unit focuses on the design and operation of power electronics and converters used in EV powertrains. Students will learn about the principles of power electronics, including switching converters, DC-DC converters, and AC-DC converters. The unit will also cover the design and development of power electronics for EV applications. • Battery Management Systems (BMS)
This unit covers the design and development of BMS for EV powertrains. Students will learn about the principles of battery management, including battery chemistry, cell balancing, and state-of-charge estimation. The unit will also cover the design and development of BMS for different types of batteries used in EVs. • Electric Vehicle Charging Systems
This unit focuses on the design and development of EV charging systems, including Level 1, Level 2, and DC Fast Charging. Students will learn about the principles of charging systems, including charging algorithms, power electronics, and electrical engineering. The unit will also cover the design and development of charging systems for different types of EVs. • Thermal Management Systems for EVs
This unit covers the design and development of thermal management systems for EVs. Students will learn about the principles of thermal management, including heat transfer, thermal insulation, and cooling systems. The unit will also cover the design and development of thermal management systems for different types of EVs. • Electric Vehicle Powertrain Control Systems
This unit focuses on the design and development of powertrain control systems for EVs. Students will learn about the principles of powertrain control, including motor control, transmission control, and braking systems. The unit will also cover the design and development of powertrain control systems for different types of EVs. • Energy Storage Systems for EVs
This unit covers the design and development of energy storage systems for EVs. Students will learn about the principles of energy storage, including battery technology, supercapacitors, and flywheels. The unit will also cover the design and development of energy storage systems for different types of EVs. • Electric Vehicle Safety Systems
This unit focuses on the design and development of safety systems for EVs. Students will learn about the principles of safety systems, including crash testing, fire safety, and electrical safety. The unit will also cover the design and development of safety systems for different types of EVs. • Electric Vehicle Manufacturing and Testing
This unit covers the design and development of EV manufacturing and testing processes. Students will learn about the principles of EV manufacturing, including design for manufacturability, production planning, and quality control. The unit will also cover the design and development of testing processes for EVs. • Electric Vehicle Charging Infrastructure
This unit focuses on the design and development of EV charging infrastructure, including charging station design, installation, and maintenance. Students will learn about the principles of charging infrastructure, including electrical engineering, mechanical engineering, and software development. The unit will also cover the design and development of charging infrastructure for different types of EVs.
This unit covers the fundamental principles of electric motor design, including the types of electric motors, motor control techniques, and power electronics. Students will learn about the design and development of electric motors for EV powertrains, including the use of advanced materials and manufacturing techniques. • Power Electronics and Converters
This unit focuses on the design and operation of power electronics and converters used in EV powertrains. Students will learn about the principles of power electronics, including switching converters, DC-DC converters, and AC-DC converters. The unit will also cover the design and development of power electronics for EV applications. • Battery Management Systems (BMS)
This unit covers the design and development of BMS for EV powertrains. Students will learn about the principles of battery management, including battery chemistry, cell balancing, and state-of-charge estimation. The unit will also cover the design and development of BMS for different types of batteries used in EVs. • Electric Vehicle Charging Systems
This unit focuses on the design and development of EV charging systems, including Level 1, Level 2, and DC Fast Charging. Students will learn about the principles of charging systems, including charging algorithms, power electronics, and electrical engineering. The unit will also cover the design and development of charging systems for different types of EVs. • Thermal Management Systems for EVs
This unit covers the design and development of thermal management systems for EVs. Students will learn about the principles of thermal management, including heat transfer, thermal insulation, and cooling systems. The unit will also cover the design and development of thermal management systems for different types of EVs. • Electric Vehicle Powertrain Control Systems
This unit focuses on the design and development of powertrain control systems for EVs. Students will learn about the principles of powertrain control, including motor control, transmission control, and braking systems. The unit will also cover the design and development of powertrain control systems for different types of EVs. • Energy Storage Systems for EVs
This unit covers the design and development of energy storage systems for EVs. Students will learn about the principles of energy storage, including battery technology, supercapacitors, and flywheels. The unit will also cover the design and development of energy storage systems for different types of EVs. • Electric Vehicle Safety Systems
This unit focuses on the design and development of safety systems for EVs. Students will learn about the principles of safety systems, including crash testing, fire safety, and electrical safety. The unit will also cover the design and development of safety systems for different types of EVs. • Electric Vehicle Manufacturing and Testing
This unit covers the design and development of EV manufacturing and testing processes. Students will learn about the principles of EV manufacturing, including design for manufacturability, production planning, and quality control. The unit will also cover the design and development of testing processes for EVs. • Electric Vehicle Charging Infrastructure
This unit focuses on the design and development of EV charging infrastructure, including charging station design, installation, and maintenance. Students will learn about the principles of charging infrastructure, including electrical engineering, mechanical engineering, and software development. The unit will also cover the design and development of charging infrastructure for different types of EVs.
Career path
Entry requirements
- Basic understanding of the subject matter
- Proficiency in English language
- Computer and internet access
- Basic computer skills
- Dedication to complete the course
No prior formal qualifications required. Course designed for accessibility.
Course status
This course provides practical knowledge and skills for professional development. It is:
- Not accredited by a recognized body
- Not regulated by an authorized institution
- Complementary to formal qualifications
You'll receive a certificate of completion upon successfully finishing the course.
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GRADUATE CERTIFICATE IN EV POWERTRAIN SYSTEMS
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who has completed a programme at
London School of Planning and Management (LSPM)
Awarded on
05 May 2025
Blockchain Id: s-1-a-2-m-3-p-4-l-5-e
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